
#include "../precompiled.h"
#pragma hdrstop

/*
   CRC-16

   16 bit, non-reflected CRC using the polynomial 0x1021
   and the initial and final xor values shown below.
   in other words, the CCITT standard CRC-16
*/

#define CRC16_INIT_VALUE	0xffff
#define CRC16_XOR_VALUE		0x0000

#ifdef CREATE_CRC_TABLE

static unsigned short crctable[256];

/*
   Generate a table for a byte-wise 16-bit CRC calculation on the polynomial:
   x^16 + x^12 + x^5 + x^0
*/

void make_crc_table( void ) {
	int i, j;
	unsigned long poly, c;
	/* terms of polynomial defining this crc (except x^16): */
	static const byte p[] = {0,5,12};

	/* make exclusive-or pattern from polynomial (0x1021) */
	poly = 0L;
	for ( i = 0; i < sizeof( p ) / sizeof( byte ); i++ ) {
		poly |= 1L << p[i];
	}

	for ( i = 0; i < 256; i++ ) {
		c = i << 8;
		for ( j = 0; j < 8; j++ ) {
			c = ( c & 0x8000 ) ? poly ^ ( c << 1 ) : ( c << 1 );
		}
		crctable[i] = (unsigned short) c;
	}
}

#else

/*
  Table of CRC-16's of all single-byte values (made by make_crc_table)
*/
static unsigned short crctable[256] = {
	0x0000,	0x1021,	0x2042,	0x3063,	0x4084,	0x50a5,	0x60c6,	0x70e7,
	0x8108,	0x9129,	0xa14a,	0xb16b,	0xc18c,	0xd1ad,	0xe1ce,	0xf1ef,
	0x1231,	0x0210,	0x3273,	0x2252,	0x52b5,	0x4294,	0x72f7,	0x62d6,
	0x9339,	0x8318,	0xb37b,	0xa35a,	0xd3bd,	0xc39c,	0xf3ff,	0xe3de,
	0x2462,	0x3443,	0x0420,	0x1401,	0x64e6,	0x74c7,	0x44a4,	0x5485,
	0xa56a,	0xb54b,	0x8528,	0x9509,	0xe5ee,	0xf5cf,	0xc5ac,	0xd58d,
	0x3653,	0x2672,	0x1611,	0x0630,	0x76d7,	0x66f6,	0x5695,	0x46b4,
	0xb75b,	0xa77a,	0x9719,	0x8738,	0xf7df,	0xe7fe,	0xd79d,	0xc7bc,
	0x48c4,	0x58e5,	0x6886,	0x78a7,	0x0840,	0x1861,	0x2802,	0x3823,
	0xc9cc,	0xd9ed,	0xe98e,	0xf9af,	0x8948,	0x9969,	0xa90a,	0xb92b,
	0x5af5,	0x4ad4,	0x7ab7,	0x6a96,	0x1a71,	0x0a50,	0x3a33,	0x2a12,
	0xdbfd,	0xcbdc,	0xfbbf,	0xeb9e,	0x9b79,	0x8b58,	0xbb3b,	0xab1a,
	0x6ca6,	0x7c87,	0x4ce4,	0x5cc5,	0x2c22,	0x3c03,	0x0c60,	0x1c41,
	0xedae,	0xfd8f,	0xcdec,	0xddcd,	0xad2a,	0xbd0b,	0x8d68,	0x9d49,
	0x7e97,	0x6eb6,	0x5ed5,	0x4ef4,	0x3e13,	0x2e32,	0x1e51,	0x0e70,
	0xff9f,	0xefbe,	0xdfdd,	0xcffc,	0xbf1b,	0xaf3a,	0x9f59,	0x8f78,
	0x9188,	0x81a9,	0xb1ca,	0xa1eb,	0xd10c,	0xc12d,	0xf14e,	0xe16f,
	0x1080,	0x00a1,	0x30c2,	0x20e3,	0x5004,	0x4025,	0x7046,	0x6067,
	0x83b9,	0x9398,	0xa3fb,	0xb3da,	0xc33d,	0xd31c,	0xe37f,	0xf35e,
	0x02b1,	0x1290,	0x22f3,	0x32d2,	0x4235,	0x5214,	0x6277,	0x7256,
	0xb5ea,	0xa5cb,	0x95a8,	0x8589,	0xf56e,	0xe54f,	0xd52c,	0xc50d,
	0x34e2,	0x24c3,	0x14a0,	0x0481,	0x7466,	0x6447,	0x5424,	0x4405,
	0xa7db,	0xb7fa,	0x8799,	0x97b8,	0xe75f,	0xf77e,	0xc71d,	0xd73c,
	0x26d3,	0x36f2,	0x0691,	0x16b0,	0x6657,	0x7676,	0x4615,	0x5634,
	0xd94c,	0xc96d,	0xf90e,	0xe92f,	0x99c8,	0x89e9,	0xb98a,	0xa9ab,
	0x5844,	0x4865,	0x7806,	0x6827,	0x18c0,	0x08e1,	0x3882,	0x28a3,
	0xcb7d,	0xdb5c,	0xeb3f,	0xfb1e,	0x8bf9,	0x9bd8,	0xabbb,	0xbb9a,
	0x4a75,	0x5a54,	0x6a37,	0x7a16,	0x0af1,	0x1ad0,	0x2ab3,	0x3a92,
	0xfd2e,	0xed0f,	0xdd6c,	0xcd4d,	0xbdaa,	0xad8b,	0x9de8,	0x8dc9,
	0x7c26,	0x6c07,	0x5c64,	0x4c45,	0x3ca2,	0x2c83,	0x1ce0,	0x0cc1,
	0xef1f,	0xff3e,	0xcf5d,	0xdf7c,	0xaf9b,	0xbfba,	0x8fd9,	0x9ff8,
	0x6e17,	0x7e36,	0x4e55,	0x5e74,	0x2e93,	0x3eb2,	0x0ed1,	0x1ef0
};

#endif

void CRC16_InitChecksum( unsigned short &crcvalue ) {
	crcvalue = CRC16_INIT_VALUE;
}

void CRC16_Update( unsigned short &crcvalue, const byte data ) {
	crcvalue = ( crcvalue << 8 ) ^ crctable[ ( crcvalue >> 8 ) ^ data ];
}

void CRC16_UpdateChecksum( unsigned short &crcvalue, const void *data, int length ) {
	unsigned short crc;
	const unsigned char *buf = (const unsigned char *) data;

	crc = crcvalue;
	while( length-- ) {
		crc = ( crc << 8 ) ^ crctable[ ( crc >> 8 ) ^ *buf++ ];
	}
	crcvalue = crc;
}

void CRC16_FinishChecksum( unsigned short &crcvalue ) {
	crcvalue ^= CRC16_XOR_VALUE;
}

unsigned short CRC16_BlockChecksum( const void *data, int length ) {
	unsigned short crc;

	CRC16_InitChecksum( crc );
	CRC16_UpdateChecksum( crc, data, length );
	CRC16_FinishChecksum( crc );
	return crc;
}
